Clarifies each definition and theorem with remarks that also point out useful extensions or generalizations of the concepts or resultsFocuses on counting configurations that satisfy a variety of specified conditionsIncludes a chapter that briefly introduces the notion of probability and its connection to counting configurationsOffers practical exercises of varying difficulty at the end of each chapter and provides hints to their solutions in an appendix Enumerative Combinatorics presents elaborate and systematic coverage of the theory of enumeration. The first seven chapters provide the necessary background, including basic counting principles and techniques, elementary enumerative topics, and an extended presentation of generating functions and recurrence relations. The remaining seven chapters focus on more advanced topics, including, Stirling numbers, partitions of integers, partition polynomials, Eulerian numbers and Polya's counting theorem.Extensively classroom tested, this text was designed for introductory- and intermediate-level courses in enumerative combinatorics, but the far-reaching applications of the subject also make the book useful to those in operational research, the physical and social science, and anyone who uses combinatorial methods. Remarks, discussions, tables, and numerous examples support the text, and a wealth of exercises-with hints and answers provided in an appendix--further illustrate the subject's concepts, theorems, and applications